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"Given its importance to consumer safety, fire resistant textiles are one of the fastest growing sectors in industrial textiles. Handbook of fire resistant textiles provides a comprehensive review of the considerable advances that have occurred in the field of fire resistant textiles in recent years. It draws together scientific and technical expertise from around the world to produce an important source of current knowledge on fire resistant textiles and their use for protection in hostile environments.Part one provides an overview of fire resistant textiles. Chapters discuss burning and combustion mechanisms of textile fibers, chemical modification of natural and synthetic fibers to improve flame retardancy, multi-component flame resistant coating techniques for textiles, care and maintenance of fire resistant textiles, along with the safety, health and environmental aspects of flame retardants. Part two covers different types of fire resistant fibers and fabrics, including flame retardant cotton, wool, ceramic fibers and blends, composites and nonwovens. Part three reviews standards, regulations, and characterization of fire resistant textiles. Part four includes case studies of major applications of fire resistant textiles."

"Salah satu resin yang paling umum digunakan dalam pembuatan komposit adalah epoksi dikarenakan kelebihan-kelebihan yang dimilikinya. Namun, tergantung dengan aplikasinya, dibutuhkan penambahan senyawa lain sebagai fire retardant additive untuk meningkatkan sifat ketahanan api komposit dengan tetap memperhatikan kesehatan dan dampaknya pada lingkungan. Salah satu senyawa yang paling umum digunakan adalah halogen. Akan tetapi, halogen memiliki dampak negatif pada kesehatan dan. Alternatif lain dari halogen ini adalah aditif Al OH 3/Mg OH 2. Oleh karena itu, pada penelitian ini dilakukan sintesis dan karaterisasi fire retardant composite non-halogen dengan resin epoksi dan variasi konsentrasi aditif Al OH 3/Mg OH 2. Parameter yang diperhatikan untuk karakterisasi dalam penelitian ini adalah kemampuan fire retardancy, dispersi morfologi, dan kemampuan mekanik dari komposit yang disintesiskan. Kemampuan fire retardancy dilihat melalui uji flammability dan uji stabilitas termal. Dispersi morfologi dilihat melalui uji SEM/EDX. Kemampuan mekanik dilihat melalui uji tensile strength dan hardness. Hasil penelitian menunjukkan bahwa dari variasi konsentrasi aditif Al OH 3/Mg OH 2 yang disintesiskan, penggunaan konsentrasi aditif Al OH 3 50 pada resin epoksi memberikan komposit dengan sifat ketahanan dan mekanik terbaik. Komposit resin/aditif Al OH 3 50 memberikan flammability rating V-0 pada dua dari lima sampel, dengan MLR 12,51 /menit, tensile strength 11,7 MPa, dan hardness bernilai 79.

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One of the most common resins in the manufacturing of composite is epoxy because of its advantages over other resin. However, depending on its application, additive is needed to raise the thermal resistance of the composites while still take in consideration its effect on health and environment. One of the most common additives used is halogen. However, halogen gives negative effect on health and environment. An alternative for halogen is using Al OH 3 Mg OH 2 as additive. Therefore, in this research, non halogenic fire retardant composites with epoxy resin and various concentration of additive Al OH 3 Mg OH 2 are synthesized and characterized.

Parameters that need to be focused on for the characterization of this research is the fire retardancy, morphology dispersion, and mechanical properties of the synthesized composite. The fire retardancy is tested through flammability test and thermal stability test, morphology dispersion through SEM EDX, and mechanical properties through tensile strength and hardness test.

The results of this research shows that, from the varied concentration of Al OH 3 Mg OH 2 that rsquo s synthesized, Al OH 3 50 gives the best flame retardancy behavior and mechanical properties. This composite gives flammability rating V 0 in two of the five samples, with MLR 12,51 minute, tensile strength 11,7 MPa, and hardness 79."

"Poliester tak jenuh memiliki aplikasi luas namun mudah terbakar. Aditif halogen awalnya digunakan untuk meningkatkan fire retardancy komposit namun memiliki efek samping negatif terhadap kesehatan. Pada penelitian ini dilakukan sintesis fire retardant composite dengan variasi konsentrasi aditif Al(OH)3/Mg(OH)2 dan filler carbon black. Parameter fire retardancy yang diamati adalah time to ignition (ti), time taken to retard the fire (tr), burning time (tb), dan flammability rating menurut standar UL-94V. Komposisi aditif terbaik diperoleh pada konsentrasi Al(OH)3 40%/Mg(OH)2 10% dengan ti 22,5 detik, tr 6,2 detik, tb 7,8 detik, dan flammability rating V–0. Penambahan filler carbon black sebanyak 2,5% meningkatkan fire retardancy komposit dengan nilai ti 30 detik, tr 1,4 detik, tb 3,5 detik, dan flammability rating V–0. Penambahan aditif dan filler CB mampu meningkatkan stabilitas termal komposit dengan menurunkan mass loss rate (MLR) dan total mass loss. Komposit resin/aditif terbaik (Al(OH)3 40%/Mg(OH)2 10%) memiliki nilai tensile strength sebesar 18,2 MPa dan hardness 51. Sedangkan komposit resin/aditif/filler terbaik (Al(OH)3 40%/Mg(OH)2 10%/CB 2,5%) memiliki nilai tensile strength sebesar 13,9 MPa dan hardness 55.

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Unsaturated polyester resin has wide application but is flammable. Halogen additive was originally used for improving the fire retardancy of the composite but has the negative effects on health. In this research, synthesis of fire retardant composite has been conducted by varying additive Al(OH)3/Mg(OH)2 and carbon black filler concentration. Fire retardancy parameters need to be observed are time to ignition (ti), time taken to retard the fire (tr), burning time (tb), and flammability rating as per UL-94V standard. Additive composition shows the best result at the concentration of Al(OH)3 40%/Mg(OH)2 10% with ti value of 22.5 s, tr 6.2 s, tb 7.8 s, and V-0 flammability rating. Adding carbon black filler of 2.5% improves the fire retardancy of composite with ti value of 30 s, tr 1.4 s, tb 3.5 s, and V-0 flammability rating. Adding of additive and CB filler can improve the thermal stability of composite by reducing mass loss rate (MLR) and total mass loss. The best resin/additive composite (Al(OH)3 40%/Mg(OH)2 10%) has tensile strength value of 18.2 MPa and hardness 51. Whereas, the best resin/additive/filler composite (Al(OH)3 40%/Mg(OH)2 10%/CB 2.5%) has tensile strength value of 13.9 MPa and hardness 55."

"This volume describes the latest developments in protective clothing against nearly any kind of threat for both military and civilians. It deals with protection through the use of nanotechnology, interactive clothing and biotechnological processes. Factors such as comfort and ballistics are also considered in the book, and several practical examples are discussed. All papers are written by leading experts in their respective fields. "

"Resin epoksi memilki aplikasi yang luas dalam berbagai sektor, namun resin epoksi memilki keterbatasan dalam hal ketahanan api, sehingga epoksi sering dikombinasikan dengan fire retardant additive. Pada umumnya, fire retardant additives terdiri dari kandungan halogen yang dapat menimbulkan masalah lingkungan dan kesehatan. Pada penelitian ini dilakukan sintesis fire retardant composite melalui kombinasi 50 wt resin epoksi dan 50 wt aditif alumunium hidroksida komposisi optimum dengan variasi konsentrasi filler carbon black dan silika 1 ; 2,5 ; 5 ; 7,5 ; 10 wt. Konsentrasi filler carbon black dan filler silika terbaik adalah1 wt dan 2,5 wt. Penambahan 1 wt carbon black dan 2,5 wt silika dapat meningkatkan fire retardancy komposit hingga material tidak terbakar dan memiliki flammability rating V-0 berdasarkan standar UL-94V. Selain itu, penambahan 1 wt carbon black dapat menghasilkan stabilitas termal terbaik dibandingkan variasi konsentrasi carbon black lainnya dengan menurunkan mass loss rate hingga 10,75 /menit dan total mass loss hingga 53,76. Sedangkan, penambahan 2,5 wt silika juga dapat meningkatkan stabilitas termal komposit melalui penurunan mass loss rate hingga 9,32 dan total mass loss hingga 51,06. Disisi lain, penambahan 1 wt carbon black dapat menghasilkan tensile strength komposit sebesar 6,59 MPa dan hardness sebesar 65,8 shore D. Sedangkan penambahan 2,5 wt silika memiliki tensile strength komposit sebesar 9,89MPa dan hardness sebesar 71,2 shore D.

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Epoxy has a wide range of applications in many sectors. However, it still has some drawbacks such as flammable and not fireproof, so usually it is combined with fire retardant additives. Commonly fire retardant additive contains halogen compounds like chlorine or bromine that caused environmental and health problems. Therefore Al OH 3 additive is used to improve the fire retardancy properties of composite through decomposition that produced water vapour and formation of oxide layer on its surface. In this research, synthesis of fire retardant composite has been conducted by varying filler carbon black and silica 1 2,5 5 7,5 10 wt through optimum composition of Al OH 3 50 wt and epoxy 50 wt. It was found that the best concentration for carbon black and silica is 1 wt and 2.5 wt respectively. Both concentration significantly repairs the fire retardancy and thermal stability of composite. The addition of 1 wt carbon black and 2.5 wt silica could improve the flame retardancy and also hasV 0 flammability rating based on UL 94V standard. Besides that, the addition of 1 wt carbon black is able to increase the thermal stability of composite by reducing mass loss rate until 10.75 minute and total mass loss until 53.76. While adding 2.5 wt silica could also enhance its thermal stability by decreasing mass loss rate until 9.32 minute and total mass loss until 51.06. Furthermore, the addition of 1 wt carbon black yields 6.59 MPa for tensile strength and 65.8 shore D for hardness. Whereas the addition of 2.5 wt of silica produces composite with the tensile strength up to 9,89MPa and hardness up to71,2 shore D."